Two new oligomers of E. coli small heat-shock protein IbpB identified under heat stress exhibit maximum holding chaperone activity.

Escherichia coli small heat-shock protein IbpB (MW: 16 KDa) has holding chaperone activity and is present in cells at 30 °C as two large oligomers of MW 2.0-3.0 MDa and 600-700 KDa. We report here about the presence of two additional oligomers of MW around 400 and 130 KDa in cells under heat-stress at 50 °C. These two smaller oligomers possess the most chaperone activity, as observed from the extent of inhibition of inactivation and aggregation separately, of L-Lactate dehydrogenase in the presence of the individual oligomers at 52 and 60 °C, respectively. It is suggested here that the two larger oligomers act as poorly active storage forms, which under heat stress dissociate partially into smaller oligomers with high holdase activity.